English

Generalization and Exact Deformations of Quantum Groups

q-alg 2014-05-27 v1 Quantum Algebra

Abstract

A large family of "standard" coboundary Hopf algebras is investigated. The existence of a universal R-matrix is demonstrated for the case when the parameters are in general position. Algebraic surfaces in parameter space are characterized by the appearance of certain ideals; in this case the universal R-matrix exists on the associated algebraic quotient. In special cases the quotient is a "standard" quantum group; all familiar quantum groups including twisted ones are obtained in this way. In other special cases one finds new types of coboundary bi-algebras. The "standard" universal R-matrix is shown to be the unique solution of a very simple, linear recursion relation. The classical limit is obtained in the case of quantized Kac-Moody algebras of finite and affine type. Returning to the general case, we study deformations of the standard R-matrix and the associated Hopf algebras. A preliminary investigation of the first order deformations uncovers a class of deformations that incompasses the quantization of all Kac-Moody algebras of finite and affine type. The corresponding exact deformations are described as generalized twists, Rϵ=(Ft)1RF R_\epsilon = (F^t)^{-1}RF, where RR is the standard R-matrix and the cocycle FF (a power series in the deformation parameter ϵ\epsilon) is the solution of a linear recursion relation of the same type as that which determines RR. Included here is the universal R-matrix for the elliptic quantum groups associated with sl(n)sl(n), a big surprise! Specializing again, to the case of quantized Kac-Moody algebras, and taking the classical limit of these esoteric quantum groups, one re-discovers all the trigonometric and elliptic r-matrices of Belavin and Drinfeld. The formulas obtained here are easier to use than the original ones, and the structure of the space of classical r-matrices is more transparent. The r-matrices obtained here are more general in that they are defined on the full Kac-Moody algebras, the central extensions of the loop groups.

Keywords

Cite

@article{arxiv.q-alg/9606020,
  title  = {Generalization and Exact Deformations of Quantum Groups},
  author = {Christian Fronsdal},
  journal= {arXiv preprint arXiv:q-alg/9606020},
  year   = {2014}
}

Comments

62 pages, plain Tex. This paper combines q-alg/9510002 and q-alg/9602034; Submitted for publication